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Experimental infections with Cooperia oncophora (Railliet, 1918) in calves. Results of single infections with two graded dose levels of larvae

Published online by Cambridge University Press:  06 April 2009

F. H. M. Borgsteede  and
J. Hendriks
F. H. M. Borgsteede
Affiliation:
Central Veterinary Institute, Department of Parasitology, Edelhertweg 13, 8219 PH Lelystad, The Netherlands
J. Hendriks
Affiliation:
Central Veterinary Institute, Department of Parasitology, Edelhertweg 13, 8219 PH Lelystad, The Netherlands
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Summary

Two experiments were carried out in which calves reared parasite-free were infected with a single dose of 3rd-stage larvae of Cooperia oncophora. In the first experiment the calves received 20000 or 200000 infective larvae and they were autopsied 28 or 56 days after the infection. In the second experiment the doses were the same but the animals were killed 14, 84 or 140 days after infection. If a dose of 20000 was given, clinical signs were never observed, while at a dose level of 200000 the weight gain was less on 56 and 84 days after the infection compared with the low-infected groups or the control animals. After 140 days the differences in weight gain were compensated. Faecal egg output was higher in the 200000 groups only in the first period of patency, thereafter the calves in the 20000 groups produced more. No obvious differences between the two infection levels were observed with regard to the haematological data. In the low-infected groups worm counts were only slightly lower when the results after 28 days were compared with those after 56 days. Also, the worm numbers after 14 days were almost equal to those after 84 days, while at 140 days 1 animal still had the same number, the other one had lost its worm burden. In the high-infected groups the worm loss was much quicker. After 28 days a great part of the population had already been lost. Obviously, at the 200000 level the reaction of the host against the parasite was much stronger. Adult worms were expelled at a higher rate than early 4th-larval stages. In the first experiment worm measurements revealed differences between the length of females, males and spicules of males, these being significantly longer in the low-infected groups. Analysis of the distribution of worms over the small intestine showed that in the low-infected groups worms were mainly restricted to the first 6 metres. In the high-infected groups the worm population was distributed more evenly over the whole small intestine.

Type
Research Article
Information
Parasitology , Volume 78 , Issue 3 , June 1979 , pp. 331 - 342
Copyright
Copyright © Cambridge University Press 1979

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References

REFERENCES

Altman, P. L. (1961). Blood and other body fluids. In Biological Handbooks (ed. Federation of American Societies for Experimental Biology). Washington, D.C.Google Scholar
Anderson, N., Armour, J., Eadie, R. M., Jarret, W. F. H., Jennings, F. W., Ritchie, J. S. D. & Urquhart, G. M. (1966). Experimental Ostertagia ostertagi infections in calves: results of single infections with five graded dose levels of larvae. American Journal of Veterinary Research 27, 1259–65.Google Scholar
Anonymus, (1976). Veterinary Record 98, 81.Google Scholar
Bergmann, V., Nickel, S. & Filip, H. (1970). Beitrag zur Trichostrongylidose (Cooperia-Ostertagia-Trichostrongylus-Misch-infektion) des Jungrindes. Monatshefte für Veterinärmedizin 25, 954–9.Google Scholar
Borgsteede, F. H. M. (1977). The epidemiology of gastro-intestinal helminth infections in young cattle in the Netherlands. Ph.D. thesis, Rijksuniversiteit Utrecht, The Netherlands.Google Scholar
Borgsteede, F. H. M. & Hendriks, J. (1973). Een kwantitatieve methode voor het kweken en verzamelen van infektieuze larven van maagdarmwormen. Tydschrift voor Diergenees-kunde 99, 103–13.Google Scholar
Bürger, H.-J., Eckert, J., Wetzel, H. & Michael, S. A. (1966). Zur Epizootologie des Trichostrongyliden-Befalles des Rindes in Nordwestdeutschland. Deutsche tierärztliche Wochenschrift 73, 503–13.Google Scholar
Bürger, H.-J. & Pfeiffer, A. (1969). Versuch einer Immunisierung von Kālbern mit röntgenbestrahlten Larven von Ostertagia ostertagi und Cooperia oncophora. Zentralblatt für Veterinärmedizin Reihe B 16, 357–67.CrossRefGoogle ScholarPubMed
Helle, O. & Tharaldsen, J. (1976). Gastrointestinal parasites in young cattle in Norway. Veterinary Parasitology 1, 345–57.CrossRefGoogle Scholar
Henriksen, S. A. (1972). Investigations concerning bovine gastro-intestinal strongyles. I. Preliminary results of L3-analyses. Nordisk Veterinaermedicin 24, 4955.Google ScholarPubMed
Herlich, H. (1965 a). The effect of the intestinal worms, Cooperia pectinata and Cooperia oncophora, on experimentally infected calves. American Journal of Veterinary Research 26, 1032–6.Google ScholarPubMed
Herlich, H. (1965 b). Immunity and cross immunity to cooperia oncophora and Cooperia pectinata in calves and lambs. American Journal of Veterinary Research 26, 1037–41.Google ScholarPubMed
Kloosterman, A. (1971). Observations on the epidemiology of trichostrongylosis of calves. Mededelingen Landbouwhogeschool Wageningen 71, 10.Google Scholar
Kloosterman, A. (1974). Genetical variations in resistance to Cooperia oncophora between calves of the Dutch Friesian Breed. Proceedings of the 3rd International Congress of Parasitology B-17, 734.Google Scholar
Michel, J. F. (1969 a). Some observations on the worm burdens of calves infected daily with Ostertagia ostertagi. Parasitology 59, 575–95.CrossRefGoogle ScholarPubMed
Michel, J. F. (1969 b). The regulation of egg output by Ostertagia Ostertagi in calves infected once only. Parasitology 59, 767–74.CrossRefGoogle ScholarPubMed
Michel, J. F. (1969 c). Observations on the faecal egg count of calves naturally infected with Ostertagia ostertagi. Parasitology 59, 829–35.CrossRefGoogle ScholarPubMed
Michel, J. F., Lancaster, M. B. & Hong, C. (1970). Field observations on the epidemiology of parasitic gastro-enteritis in calves. Research in Veterinary Science 11, 255–9.CrossRefGoogle ScholarPubMed
Nilsson, O. & Sorelius, L. (1973). Trichostrongyle infections of cattle in Sweden. Nordisk Veterinaermedicin 25, 6578.Google ScholarPubMed
Pandey, V. S. (1972). Contribution to the study of gastro-intestinal nematodes of cattle. Ph.D. thesis, University of Liege, Belgium.Google Scholar